CHAP. 11: ELECTROCHEMISTRY [CONTENTS] 397
Example
The Daniell cell is an example of a galvanic cell. It is formed by two half-cells. One of them
is a zinc electrode surrounded by a solution of zinc sulfate, and the other is a copper electrode
surrounded by a solution of copper sulfate. The zinc electrode is the anode at which oxidation
proceeds
Zn = Zn2++ 2 e−.
The copper electrode is the cathode at which reduction proceedsCu2++ 2 e−= Cu.We add up the reaction at the anode and that at the cathode to obtain the overall reaction
taking place in the cell
Zn + Cu2+= Zn2++ Cu.
If the electrodes are connected by a first-class conductor, electrons travel through the conductor
from the anode to the cathode.
If the solutions of ZnSO 4 and CuSO 4 are separated by a frit, the zinc ions travel through the frit
from the anode to the cathode while the sulfate ions travel in the opposite direction. The liquid
potential originates at the interface.11.8.2 Symbols used for recording galvanic cells
Galvanic cells are schematically recorded in a line, with the following conventions applied:
- The anode is written on the left, the cathode on the right. Their charges may, but do
not have to, be marked. - The phase interface is marked by a single vertical bar ”|”. We find it at the place of
contact of the electrode and the electrolyte, two electrolytes separated by a frit, or at
the place of contact of an undissolved salt and a metal in the case of electrodes of the
second type, see11.8.10. - If there is a salt bridge suppressing the diffusion potential at the place of contact of two
electrolytes, we write a double vertical bar ”||” instead of a single one.